Detection of alkali-silica reaction swelling in concrete by staining
A method using concentrated aqueous solutions of sodium cobaltinitrite and rhodamine B is described which can be used to identify concrete that contains gels formed by the alkali-silica reaction (ASR). These solutions present little health or environmental risk, are readily applied, and rapidly discriminate between two chemically distinct gels; K-rich, Na--K--Ca--Si gels are identified by yellow staining, and alkali-poor, Ca--Si gels are identified by pink staining.
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Claims
1. A method for identifying concrete containing gels formed by the alkali-silica reaction comprising the steps of:
- a. contacting the surface of the concrete under investigation with a concentrated aqueous solution of sodium cobaltinitrite for a chosen period of time;
- b. rinsing the treated concrete surface with water; and
- c. searching the rinsed surface of the concrete for regions of yellow staining, whereby K-rich, Na--K--Ca--Si gels generated from the alkali-silica reaction are identified by yellow staining.
2. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 1, wherein the chosen period of time for contacting the concrete under investigation with the concentrated solution of sodium cobaltinitrite is between 30 and 60 seconds.
3. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 1, wherein the concentrated solution of sodium cobaltinitrite is a saturated solution thereof.
4. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 3, wherein the saturated solution of sodium cobaltinitrite contains undissolved sodium cobaltinitrite.
5. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 1, further comprising the step of rinsing the concrete under investigation with water before said step of contacting the surface thereof with the concentrated solution of sodium cobaltinitrite.
6. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 5, further comprising the step of permitting the concrete to dry after said step of rinsing the concrete surface with water after said step of contacting the concrete with the concentrated solution of sodium cobaltinitrite and before said step of searching the treated concrete surface for regions of yellow staining.
7. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 1, further comprising the steps of contacting the surface of the concrete under investigation with a concentrated aqueous solution of rhodamine B for a chosen period of time, after said step of rinsing the concrete treated with the concentrated aqueous solution of sodium cobaltinitrite, rinsing the concrete surface treated with the concentrated aqueous solution of rhodamine B with water, and searching the rinsed surface of the concrete for regions of pink staining, whereby alkali-poor, Ca--Si gels generated from the alkali-silica reaction are identified by pink staining.
8. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 7, further comprising the step of rinsing the concrete under investigation with water before said step of contacting the surface thereof with the concentrated solution of sodium cobaltinitrite.
9. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 7, further comprising the step of permitting the concrete to dry after each of said steps of rinsing the concrete surface with water after each of said steps of contacting the concrete with the concentrated solutions of sodium cobaltinitrite and rhodamine B and before each of said steps of searching the treated concrete surface for regions of yellow and pink staining, respectively.
10. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 7, wherein the chosen period of time for contacting the concrete under investigation with the concentrated solution of rhodamine B is between 30 and 60 seconds.
11. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 7, wherein the concentrated solution of rhodamine B is a saturated solution thereof.
12. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 11, wherein the saturated solution of rhodamine B contains undissolved rhodamine B.
13. A method for identifying concrete containing gels formed by the alkali-silica reaction comprising the steps of:
- a. contacting the surface of the concrete under investigation with a concentrated aqueous solution of sodium cobaltinitrite for a chosen period of time;
- b. contacting the surface of the concrete under investigation with a concentrated aqueous solution of rhodamine B for a chosen period of time;
- c. rinsing the treated concrete surface with water; and
- d. searching the rinsed surface of the concrete for regions of yellow staining and for regions of pink staining, whereby K-rich, Na--K--Ca--Si gels generated from the alkali-silica reaction are identified by yellow staining and alkali-poor, Ca--Si gels generated from the alkali-silica reaction are identified by pink staining.
14. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 13, further comprising the steps of rinsing the concrete under investigation with water before each of said steps of contacting the surface thereof with the concentrated solution of sodium cobaltinitrite and the concentrated solution of rhodamine B.
15. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 13, further comprising the step of permitting the concrete to dry after said step of rinsing the concrete surface with water after the latter of said steps of contacting with the concentrated solution of sodium cobaltinitrite and contacting with the concentrated solution of rhodamine B and before said step of searching the treated concrete surface for regions of yellow and pink staining, respectively.
16. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 13, wherein the chosen period of time for contacting the concrete under investigation with the concentrated solution of sodium cobaltinitrite is between 30 and 60 seconds, and wherein the chosen period of time for contacting the concrete under investigation with the concentrated solution of rhodamine B is between 30 and 60 seconds.
17. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 13, wherein said step of contacting the surface of the concrete under investigation with a concentrated solution of sodium cobaltinitrite for a chosen period of time occurs before said step of contacting the surface of the concrete under investigation with a concentrated solution of rhodamine B for a chosen period of time.
18. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 13, wherein the concentrated solutions of sodium cobaltinitrite and rhodamine B are saturated solutions thereof.
19. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 18, wherein the saturated solution of sodium cobaltinitrite contains undissolved sodium cobaltinitrite and the saturated solution of rhodamine B contains undissolved rhodamine B.
20. A method for identifying concrete containing gels formed by the alkali-silica reaction comprising the steps of:
- a. contacting the surface of the concrete under investigation with a concentrated aqueous solution of rhodamine B for a chosen period of time;
- b. rinsing the treated concrete surface with water; and
- c. searching the rinsed surface of the concrete for regions of pink staining, whereby alkali-poor gels generated from the alkali-silica reaction are identified by pink staining.
21. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 20, wherein the chosen period of time for contacting the concrete under investigation with the concentrated solution of rhodamine B is between 30 and 60 seconds.
22. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 20, wherein the concentrated solution of rhodamine B is a saturated solution thereof.
23. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 22, wherein the saturated solution of rhodamine B contains undissolved rhodamine B.
24. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 20, further comprising the step of rinsing the concrete under investigation with water before said step of contacting the surface thereof with the concentrated solution of rhodamine B.
25. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 24, further comprising the step of permitting the concrete to dry after said step of rinsing the concrete surface with water after said step of contacting the concrete with the concentrated solution of rhodamine B and before said step of searching the treated concrete surface for regions of pink staining.
26. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 20, further comprising the steps of contacting the surface of the concrete under investigation with a concentrated aqueous solution of sodium cobaltinitrite for a chosen period of time, after said step of rinsing the concrete treated with the concentrated aqueous solution of rhodamine B, rinsing the concrete surface, treated with the concentrated aqueous solution of sodium cobaltinitrite with water, and searching the rinsed surface of the concrete for regions of yellow staining, whereby K-rich, Na--K--Ca--Si gels generated from the alkali-silica reaction are identified by yellow staining.
27. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 26, further comprising the step of rinsing the concrete under investigation with water before said step of contacting the surface thereof with the concentrated solution of rhodamine B.
28. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 26, further including the step of permitting the concrete to dry after each of said steps of rinsing the concrete surface with water after each of said steps of contacting the concrete with the concentrated solutions of rhodamine B and sodium cobaltinitrite and before each of said steps of searching the treated concrete surface for regions of pink and yellow staining, respectively.
29. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 26, wherein the chosen period of time for contacting the concrete under investigation with the concentrated solution of sodium cobaltinitrite is between 30 and 60 seconds.
30. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 26, wherein the concentrated solution of sodium cobaltinitrite is a saturated solution thereof.
31. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 30, wherein the saturated solution of sodium cobaltinitrite contains undissolved sodium cobaltinitrite.
32. A method for identifying concrete containing gels formed by the alkali-silica reaction comprising the steps of:
- a. contacting the surface of the concrete under investigation with a concentrated aqueous solution of sodium cobaltinitrite and rhodamine B for a chosen period of time;
- b. rinsing the treated concrete surface with water; and
- c. searching the rinsed surface of the concrete for regions of yellow staining and for regions of pink staining, whereby K-rich, Na--K--Ca--Si gels generated from the alkali-silica reaction are identified by yellow staining and alkali-poor, Ca--Si gels generated from the alkali-silica reaction are identified by pink staining.
33. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 32 further comprising the step of rinsing the concrete under investigation with water before said step of contacting the surface thereof with the concentrated solution of sodium cobaltinitrite and rhodamine B.
34. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 32, further comprising the step of permitting the concrete to dry after said step of rinsing the concrete surface with water after said step of contacting with the concentrated solution of sodium cobaltinitrite and rhodamine B and before said step of searching the treated concrete surface for regions of yellow and pink staining, respectively.
35. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 32, wherein the chosen period of time for contacting the concrete under investigation with the concentrated solution of sodium cobaltinitrite and rhodamine B is between 30 and 60 seconds.
36. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 32, wherein the concentrated solution of sodium cobaltinitrite and rhodamine B is a saturated solution thereof.
37. The method for identifying concrete containing gels formed by the alkali-silica reaction as described in claim 36, wherein the saturated solution of sodium cobaltinitrite and rhodamine B contains undissolved sodium cobaltinitrite and undissolved rhodamine B.
5656075 | August 12, 1997 | Gaidis et al. |
- French, W.J. et al "Alkali-aggregate Reactions and the Middle East" Concrete, vol. 10, No. 1, pp. 18-20 (Jan. 1976). Poole, A.B. et al "A Staining Technique for the Identification of Sulphates in Aggregates and Concretes" Mineralogical Magazine, vol. 40, pp. 315-316 (1975). Natesaiyer, K.C. et al "Further Study of An In-Situ Identification Method for Alkali-Silica Reaction Products in Concrete" Cement and Concrete Research, vol. 19, pp. 770-778 (1989). K. Natesaiyer et al., "In Situ Identification of ASR Products In Concrete," Cement and Concrete Research 18, 455 (1988). Richard Helmuth et al., "Alkali-Silica Reactivity: An Overview of Research," Strategic Highways Research Program SHRP-C-342, National Research Council, Washington, DC (1993). A. Gabriel et al., "A Staining Method For the Quantitative Determination Of Certain Rock Minerals," Am. Mineral. 14, 290 (1929). Edgar H. Bailey et al., "Selective Staining of K-Feldspars And Plagioclase On Rock Slabs And Thin Sections," Am. Mineral. 45, 1020 (1960).
Type: Grant
Filed: Nov 7, 1996
Date of Patent: Apr 14, 1998
Assignee: The Regents of the University of California (Los Alamos, NM)
Inventors: George D. Guthrie, Jr. (Santa Fe, NM), J. William Carey (Santa Fe, NM)
Primary Examiner: Jeffrey Snay
Attorney: Samuel M. Freund
Application Number: 8/745,118
International Classification: G01N 2191;